Pressure-operated antibackflow device for cutting torches



Sept 23, 1952 E. H. sMrrH PRESSURE-OPERATED ANTIBACKFLOW DEVICE FOR CUTTING ToRcHEs Filed July 17, 1948 sept. i955 PRESSURJPERATED it.-Aoimfh(5i-'tfy Davies F01;` CUTTING 'roltcmss Mina,

Wthttheoperation` ,of gcuttihg, attachments to4 a 15 welding torch4 handlethat apbakow of' fuel' gas may be caused by an excess of press're' on' the fueligasgin the torch tip,r whereby fuel gais' may owsbackv,into oxygenzrpassags to the' cutting 26 valvechamberfwher'eby .th cutting.V valve and its seatcmay.becomeseriouslyi damag'ediand the torch temporarily .rendere'djiunt for further use, -in the eysntfthabackfmw fuer gases -bebeinhe' ignited; as by, albackire;V Other elements and devices corineeted. toandassdeiated with thert'drch' and' it L5' all, tipi-f 'the t0 t enlargedschamber fruth,

saicl'snring-aiuate el fluent.:beiner yield; (from p,resulteet-.A oxyeenssielitr t@ theQoi1t-rp1v valve. ofthe tei l1l Qpensto l oxyeeatqiawthroueh the .enlarged-.Chamb Q theL-preheatine,Qricesseithe 'rch tip dunney normalpperationsof wateren.; A

.Aiurther vobieat is. tps-provide ina slitting Jelrl-*xv comprising@ uttnggasgcqntrelNallans pr heatnafuelggas. passage@ Springrellet d d' phragm-.Which ,permits gasiiow t9. the.; P1P f the.,torch.isioperatina whereby a cgnstante oxygen may .be supplied .the` preheetinasme@ during. normal operation Qthe. torh,sa ddi .g phraam A automaticallm,closing the, l sliep. .Vj oxygento. the, vf,uel,passagainv the.; event`A the. press suraof, the' oxyeenssupplysshoulc inachterterltl..Y drop 1to,.aa.fauresbe1ow.,the presset-fpressute @Xs-.ry ertedi upon the, diaphragm-therebypreyehtlhgra backflowz :oit fuel :gas .toL the cuttingA valve and causingia baclre in the torcia@v me A Afurther 4Objectis ,to ,provide a, cutting-v, Lorch having asprine loaded ,..diaunhraexri'intern.Gsell11.12` the passage for conductngoxygen,iromjuiepute ting ,valve Chambertin theiuelsgas: passagespf thermen. whichv .diaphragm .iss. nQrInaIIy.,--p'ozse tiph'edin engagementlfwith l`a seat to: prevent, gas, ow to .thefuel *gas passages,;.saidldiaphragmebeg: ing' exposed to theA pressure of :the oxygenfluwin. to the; pre-heating'` orifices- ,when ,the Vtorihis inVv operation, .whereby thel,diaphragm; is retained in,A openlpositon theA normalfOW omygen to; the p'rehe'ating Voriibes;` said diaphragirhautomat:y ically closing, the Voxygerlf suppln passagetothe'. pre-heating Voriceslm theeyentl` of a drop in pressurelin the oxygenspplys. t

Affurther object is to, prow/idea cutting;,torch'i having a. plurality-vofzducts tlfierlein,,'certa i1f1;.piA which deliver a fuel gas such as acetylene;artri-` oxyaen, tto/V, the nreheatna, artifices. in .thestorch tpijlung; ges .Iisgefffflso 196i gsEfQ; viddla the-iront.` fa aaiaunaacuwnsgaat he f; thev tpl' arid' a" spl6dd` diaplfagib mounted in the body of the torch and normally closing the oxygen supply passage to the fuel gas passages, but being adapted to yield to oxygen pressure to permit oxygen to flow to the fuel passages under normal operation of the torch; and in the event of a drop in the pressure of the oxygen flowing to the preheating orifices, said diaphragm will automatically interrupt the iiow of such oxygen and prevent a backflow of fuel gases from reaching the cutting gas control valve and its seat and thereby preventing a combustible or explosive mixture from forming in the cutting gas passage and cause a backiire in the torch and ignite the combustible seat of the oxygen cutting valve.

A further and more specic object of the invention is to provide a cutting attachment assembly comprising a butt member having means for connecting it to a conventional torch handle and including a torch head having means for detachably supporting a cutting tip therein, said butt member having fuel gas passages therein for delivering a fuel gas to the usual preheating oriiices of the torch tip, and a valve chamber being provided in the butt member and having a cutting gas control valve mounted therein for controlling the flow of oxygen to the usual cutting orifice of the torch tip, and an anti-backow being removably secured in a threaded bore in the butt member and supporting a diaphragm having one side cooperating with the bottom of said bore to provide an enlarged chamber in the butt member; there being a duct in the butt member for conducting oxygen from the valve chamber to said enlarged chamber whereby substantially the entire area of the diaphragm is exposed to the pressure of the oxygen iiowing to the preheating orifices of the torch tip, a spring being provided within said plug for constantly urging the diaphragm in a direction to close the outlet from said enlarged chamber to the preheating oriiices, the pressure of said spring against the diaphragm being relatively less than the 'pressure exerted by the oxygen, whereby the diaphragm will yield under pressure of the oxygen and permit oxygen to constantly iiow to the preheating orices through said enlarged chamber during normal operation of the torch, the pre-set load of the diaphragm spring being such that in the event of a drop in the pressure of the oxygen supply, said diaphragm will automatically close said outlet and prevent a backflow of fuel gas from the torch tip from passing through said chamber and reaching the valve chamber and mixing with pure oxygen, which may causey a backfire in the torch.

Other objects reside in the simple and inex.

pensive construction of the diaphragm supporting means whereby the diaphragm may readily be detached from the torch butt member for inspection, or other purposes, when necessary; in the provision of an anti-backiiow device which may be completely assembled independently of the torch body and may readily be secured in position therein without requiring the torch to be taken apart; and in the provision of an anti backflow device comprising few working parts,`

In the accompanying drawings there has been disclosed a structure designed to carry out the various objects of the invention, but it is to be understood that the invention is not confined to the exact features shown, as various changes may be made within the scope oi.' the claims which follow.

In the drawings:

Figure 1 is a longitudinal sectional view of a cutting torch showing the invention embodied therein;

Figure 2 is a fragmentary sectional view on an enlarged scale, showing the diaphragm in its normal closed position; and

Figure 3 is a similar view, on a smaller scale, showing the diaphragm partially lifted from its seat by the pressure of the oxygen flowing through the auxiliary chamber to the preheating fuel passages, as when the torch is in operation.

In the selected embodiment of the invention herein disclosed, there is shown in Figure 1, a portion of a tubular member 2 commonly referred to asgthe torch handle. One end of the handle member 2 is in communication with a source 'of acetylene under pressure, controlled by a suitable control valve, not shown. An oxygen supply conduit 3 is provided within the tubular member I 2 and has one end in communication with a supply of oxygen under pressure. A control valve, not shown,'is provided for controlling the iiow of oxygen through the `'conduit 3. The con-y trol valves above referred to are Well known in the art, and it is therefore deemed unnecessaryv to herein illustrate the same. It isA also to' be understood that the pressure of the acetylene and oxygen is automatically controlled by a sultable pressure regulator, not shown, and also well known in the art.

A cutting torch assembly, generally designated by the numeral 4, is shown detachably connected to the adjacent end of the tubular member 2 by a suitable coupling device 5, comprising a nipple 6 received in 'threaded engagement with the adjacent end of the butt member 1, and having a nut 8 mounted thereon adapted to be received in threadedv engagement with the terminal member 9 of lthe handle 2 to thereby detachably secure the butt member 1 to the handle 2 in leakproof relation.

A plurality of passages II are shown extending lengthwise through the nipple 6 and communicate at one end with the interior of the handle 2 and at their opposite ends with an annular groove or cavity I2.v An oxygenpassage I3 is provided in the nipple 6 and has one end in communication with the oxygen supply conduit 3 and its opposite end in communication with a valve chamber I4 through a short duct I5. The above described parts are more or less well known in the art and therefore need not be further described.

The cutting torch assembly includes the butt.

member 1, which has the adjacent ends of a pair of conduits I6 and I 'I secured therein in leakproof relation. A head I8 is shown secured at the opposite ends of the conduits I6 and I1.

The upper conduit I6 is adapted to conduct avv cutting gas such as oxygen from the butt member 1 to the usual cutting orifice of the torch tip an annular cavity 2| provided in the torch head I8. The annular cavity 2l is in communication with the inner ends of a plurality of preheating V:fuel gas ducts '22 which extend lengthwise through the torch tip I8 and terminate in' a pluralityfol. preheating orifices at theworking end ofthe tip;`

A passage 23 establishes communication between the conduit I1 and the annular cavity 2|.

In the operation of the torch, Voxygen. and acetylene are intermixed to provide. a combustible fuel mixture for the preheating flame.4 This is accomplished by mounting within theconduit. I1 a small tube 24having one end in communica tion with an annular chamber-125 providedin the, head I8, and' which annular chamber-isili direct` communication with a second annular chamber 2B through an annular passage 21. This structure i-s shown and described in PatentiNo.y 1,808,967, granted to Stuart Plumley, June'.9, 1931..

-The annular chamber 26 is in communicationv with the upper ends of the fuel gas-ducts122 `withinY the torch tip' I9. A suitable nee'dl'evalvei-.Ziiv is.r provided inthe butt'member 1 for controlling'the flow of oxygen to the preheatingiorifices,l as will-- subsequently be described.

An important feature of the presentinvention resides in the provision of means in thelfbutt member 1 for preventing backflow of fuel gasy through the torch to the cuttingV gas control valve intheeventof a back pressure at the tip of the torch, i v

LA cutting gas passage 29 is'provided in the butt member 1 and has. one end in communicationv withzthe conduit I6 and its oppositeend in com.-. munication with an upright passage 3l which has` its lower end in communication with the valve chamber I4. A spring-actuated valve element .33

is mounted in: the .valvechamber I4 and is adapt-- ed to' engage. an annular'valve seat 34. surround-A ing the :lower endv ofthe uprightV passage 3 I.. The valve element 33 is normally retainedin closing engagement with the valve` seatf34 by a suitable spring 35, shown seated againsttheLbottom-wall duct I5, A stem 39 hasvitslowerend seated in` a.

recess in the valve 33 and itsxupperendis guiding--` ly supported in a packing nut- 4I, received in V threaded engagement with thebutt member 1. asshown in Figures 14 and'3; The upperendvofthe stem 39 projects above the. guide .plug 4I and is engaged by an operating handle l2 pivoted at. 43 to the upper portion of thebutt member 1,`

as clearly illustrated in Figures. l and 3.1

The spring normallyretains the valve 33in2 closing engagement with. its. seat to cnt oizthez flow of cutting oxygen to the torch tip, when vthe torch is in operation. The combustible fuel delivered to the preheatingA orifices consists4 of pre;v

determined quantities of acetylene andoxygemas hereinbefore stated. To supply acetylene to the conduit I1, the. end thereof secured to the butt member 1 is in communication with the adja cent endsof one or more ducts 44 provided-in therbutt member. The opposite ends ofthe ducts;

44 are -in communication with vthe annular chamber or cavity I2 in thernipple 6whereby acetyleneKV may freely flow from the. interior ofthe handle 2 tothe Dfeheatng Ores. when melusuaieontroi Valve. not. shown, isopenem j f The means provided for preventing `a -backowfof fuel gases throughv the fuelpassagesltothe# valve chamber I4 and causingra backfire. in thetorch, is shown comprising an enlarged flexible. pressure responsive element or diaphragm 46,` which is interposed in the fuel passage connect'.-rv ing the valve chamber ifi tothe conduit`24- oi"y the torch, whereby 4said diaphragm may respond to'pressure variations in the low pressure oxygen"- flowing. fromvalve chamber I4 through a passage'- il and'conduit 2d tothe preheating orirlces-4 of 1 the tip.v

The ductv 43, it will be noted, connects rthe-'valve=- chamber I4-to an enlarged chamber`v 45, shown,-

provided inthe lower portion of the butt mem-- ber 1. The bottom wall of the enlarged chamberli'isdefinedby theflex-ible element or diaphragm 4E, secured in position in thebuttmem'ber by' ai suitable plug 41. The plug 41 may be received in"- threaded'engagement with the 'walls of a-.boreiin the butt member, and has a borey therein upon the bottom wallof whichV oneend 'of a` suitable springf is seated. The upper end off the spring 49 is seated against an outwardlyextending i flange 5I provided on a diaphragm supporting element 52, having adepending stem* 53 receivedin a guide bore 54 provided in the bottom of the'- plug '51. f

The marginaledge-of the diaphragm is iirrnlfyfvv clamped against a shoulder 55V providedA atthe'- bottomY of the threaded socket into which thef plug d1 is screwed, whereby the diaphragm pro-' vides the bottom wall ofv the enlarged'chamber 45', as hereinbefore described. The chamber 4'5""h'as` i a relatively small outlet 5B and an uprightpassage 51 connects said outlet to-one end'oi'a ductvv 58, the other end of which provides a valve sea-t" for a needle valve, `generally 'designated by the numeral 2e.' The duct '58 is in communication with the conduit 2li through duct Sybest illustrated in Figure 2.

When'a conventional cutting torch is operating" under normalY conditions, andA the supplies of acetylene and oxygen for the preheating flame` are' maintained at the required pressures, there is` little danger of'a backfire occur-ring in ther torch. A- backfire may occur, however, should' the pressure of the iiow of low pressure'oxygen to the preheating iiame through passages h,- Fil,4 59, and conduit 2dv to the-preheating flame vvdrop sufficiently' 4tor cause a backowof fu'elgasf through said passages to valve'charnber Ui.- Such a contingency may develop dueto negligence on the part of the operator, and may'- result y'in serious damage to the cutting valve, and other" parts of the cutting torch equipment, should I-the. b'ackow of fuel gas reach the valve chambereill,l particularly if the cutting oxygen control valve'is open and,l permitsl the baclcow offuell gas to` enter the cutting' gas'passage 29. Under 'suchf conditions, should the controlvalve for the supply of preheating oxygen to conduit I3 lbe slightlyl open to permit a slow leak of oxygen intoV valve chamber I4, such leakageV of oxygen will intermix with the backfiow of fuel gas and provide av highly combustible mixture which mayl thenj'- enter the cutting gas passage 29 and ilow through" conduit I6 4to the cutting oriiice ofthe tip where it may be ignited and cause a backfire of burning gases through conduit I5 and passage 29 into valve chamber I4, with the resultant destruction of the Valve seat 38.

A cutting torch equipped with' the novelv anti-- backfire device herein disclosed' cannot baclriireb becauseV whenstheiL-pressureiof thev lowy pressure acm-124i oxygen through chamber 45 drops below the pressure exerted on diaphragm 46 by spring 49. the diaphragm will automatically close outlet 56 and positively prevent a backflow of such fuel gas from entering said chamber and reaching the cutting valve chamber I4, and thereby cause a backfire in the torch, as above stated.

IWhen the torch is to be used, the usual gas control valves at the back end of the handle 2, not shown on the drawing, are opened to permit acetylene and oxygen to flow to the preheating orifices of the tip to produce the required preheating fuel mixture. As the oxygen enters the enlarged chamber 45 from the valve chamber I4, the pressure of the oxygen against the enlarged surface of the diaphragm in chamber 45 will unseat the diaphragm, as shown in Figure 3, whereby oxygen may freely iiow through the ducts 51, 58, 59 and 24 to the preheating orifices in the torch tip, provided, of course, that the control valve 28 is open, as shown in Figure 3. It is to be understood that the pressure of the oxygen is greater than the pre-set pressure or tension exerted against the diaphragm by the spring 49.

Simultaneously, acetylene enters the ducts in the torch tip, as previously described, and intermixes with the oxygen therein to provide a highly combustible fuel mixture which may readily be ignited as it discharges from the preheating orifices of the torch tip. When the fuel mixture thus discharging from the torch tip is ignited, the operator usually manipulates the control valves to obtain a neutral flame, and after such a flame has been obtained, the oxygen control valve 28 may be manipulated to thereby adjust and regulate the preheating flame in accordance with the job to be done.

As soon as the work has been heated to the required temperature, the operator depresses the valve handle 42 of the cutting torch to thereby open the cutting valve 33, as shown in Figure 3, whereby oxygen iiows from the supply conduit I3 through the open Valve 33, and thence through the cutting gas passage 29, conduit I6, and into the torch head I8, and through the central duct 6I in the torch tip to the cutting orifice thereof, as will be understood by reference to Figure 1.`

During the cutting operation, the diaphragm 46 isV held out of engagement with its seat 56 by the pressure of the oxygen flowing through the auxiliary chamber 45 to the preheating orifices, and such iiow of oxygen may readily be controlled at any time while the torch is in operation by manipulation of the control valve 28.

If, during the operation of the torch, a drop in the oxygen pressure of the supply to the preheating flame should occur, the spring 49 will move the diaphragm into closing engagement with the seat 56 and thus automatically prevent a. backflow of the fuel gas from duct 51 into chamber 45, and thence through passage 4U into valve chamber I4, thereby preventing a backfire from occurring in the torch through the duct 49 and into the valve chamber I4, thereby preventing ignition of the rubber valve seat 38, which otherwise might be entirely consumed by a small flow of pure oxygen into the valve chamber I4, before the pressure in the auxiliary chamber 45 could build up sufciently to open the diaphragm valve 46, as shown in Figure 3. When the duct 51 isl thus closed, the pressure of the backflow gases inthe duct 51 upon the relatively small central area of the diaphragm will be insufficient to unseat the diaphragm, against the prefset,

tension in the spring 49, thereby preventing the The embodiment of the anti-backiiow device herein disclosed in a cutting torch does not in any way impede the operation of the torch. ItA

will also be noted by reference to Figure 1 that the anti-backiiow device does not add materially to the size of the butt member 1, and its location is such that the other working parts of the buttmember, such as the control valve 28 and thev spring retaining member 31 of the cutting valve 33 may readily be manipulated without interference from the plug 41.

usual acetylene and oxygen regulating valves at the back end of the torch handle are opened, as when the torch is to be used. thesupply of low pressure oxygen to the fuel gas passages mayreadily be controlled by manipulation of the control valve 28. The pressure of the oxygen flowing through the enlarged chamber 45 is approxi-l mately four pounds per square inch. Theien larged surface area of the diaphragm exposed' to the oxygen flowing into chamber 45 from pas-t sage 40 causes the diaphragm to respond to the slightest variation in the pressure of the oxygen delivered thereto. The relatively greater surfacel area of the diaphragm relative to the small area of the outlet from chamber 45, defined by the seat 56, is such that any backiiow of fuel gas through passage 51 against the central portion of the diaphragm cannot overcome the pre-set tension of the spring 49 on the diaphragm, whereby such backiiow of gases cannot enter chamber 45, as will readily be understood from thev foregoing. The anti-backiiow device is extremely simple and inexpensive to manufacture as it may be accomplished on automatic machinery andv assembled as a compositel unit for insertion in the threaded socket or bore provided in the bottomof-the butt member 1. as hereinbefore described.

It will be apparent to those skilled in the art' that I-have accomplished at least the principal objects of my invention, and it will also be apparent to those skilled in the art that the embodiments herein described may be variously changed and modified without departing from the spirit of the invention, and that the invention is capable of usesand has advantages not herein specificallydescribed; hence it will be appreciatedv that the v herein disclosed embodiments are illustrativej only, and that my invention is not limited thereto;v y

I claim as my invention:

1'. In a torch of the class described, a. torch head having a tip removably supported therein and provided with a plurality of preheating ori' ces and a cutting orifice, a butt member having conduits `connecting it to the torch 'head and providing respectively fuel gas and cutting oxygen passages tothe torch tip, a'valve chamber' in the butt member having a connection with a supply of'oxygen under pressure, a lvalve in said' chamber, a threadedV socket inthe lower-portion' The size of the dia-v phragm 46 is such that it readily responds to the pressure of the oxygen entering the auxiliary chamber 45 from the duct 40, whereby when the '-'fithebutt member having anenlargediannular fissat.A 1a "diaphragm positioned on 'said enlarged bottom of Vthe socket defining the intake of a passage establishing communication between said auxiliary chamber and the fuel gas passage leading to `the preheating orifices, said diaphragm normally engaging said valve seat to prevent oxygen flow from the yauxiliary gas chamber, sub- J:stantially the entiresurface of one side of said diaphragm being exposed to the pressure of oxygen gas .delivered into .said auxiliary chamber from the valve chamber whereby the pressure of passages to the preheating fuel gas ducts ,in the torch tip for delivering controlled quantities of loW pressure acetylene and oxygen thereto-to l provide a `combustible lfuel mixture for a preheating dame, said oxygen passage having a cutoff valve and being connected to an enlarged chamber having a small outlet, said chamber be- .ing located in the butt member between the cutoir valve and the torch tip whereby thev flow yoi? low pressurevoxygen to the preheatingl fuelgas ducts4 in the torch tip must pass through said chamber, an enlarged diaphragm in said chamber biased to normally close said outlet when the torchjis inoperative, the ei'ective `area ,of said diaphragm exposedto the low pressuregoxygen ilewing through said enlarged vchamber being relatively greater than the effective area fofk rsaid said oxygen gas unseats the diaphragm and permits oxygento-.flow from the auxiliary chamber :tothe preheating orifices under normal operation 'of the to1ch,said diaphragm moving into closing 'engagement with the valve seat in the event of '.adrop inthe pressure of the oxygen gas delivered tothe-auxiliary chamben-whereby shoulda backlfire occur vat the torch `tip and cause a backiiow of fuel gas in the torch, the relatively small eifective area of the diaphragm exposed to such backow'gas pressure, when thediaphragmis in closed position, will prevent Athebackiiow gases from unseating the diaphragm, and entering the valve chamber.

2. A cutting torch comprising a tip having a plurality of preheating fuel gas ducts therein, a butt member having oxygen and acetylene passages therein, means connecting said passages to the preheating fuel gas ducts in said tip for delivering controlled quantities of low pressure acetylene and oxygen thereto to provide a combustible fuel mixture for a preheating flame, said oxygen passage being connected to an enlarged chamber in said butt member for delivering low pressure oxygen thereto, said chamber having a small outlet opening and which is so arranged that the low pressure oxygen flowing through said passage to the preheating fuel gas ducts in the torch tip must pass through said chamber when the torch is in operation, an enlarged pressure sensitive element in said chamber biased to normally close saidoutlet when the torch is inoperative, the effective area of said element exposed to the pressure of the low pressure oxygen delivered into said enlarged chamber being relatively greater than the effective area of said outlet, whereby should the pressure of the now of low pressure oxygen through said chamber suddenly diminish, said diaphragm will automatically close said outlet and prevent a backow of burning fuel gas from the torch tip from entering said chamber and causing a backfire in the torch.

3. A cutting torch as defined in claim 2, wherein means is provided between the torch tip and said enlarged chamber for regulating the flow of low pressure oxygen from said chamber to the tip.

4. A cutting torch as defined in claim 2, wherein the inlet and outlet openings of said enlarged chamber are located at one side of the pressure sensitive element whereby the low pressure oxygen owing through said chamber will have no closing iniiuence on said element.

5. An Oxy-acetylene torch comprising a tip having a plurality of preheating fuel gas ducts therein, a butt member having oxygen and acetylene passages therein, means connecting said y *.outlet, whereby should the` pressure oftheflow ofiow pressure .oxygen through. said chamber become lower than thebiasing pressure r exerted on said element, during operation of, the torch, t said ,element is actuated to -fautomatically close said outlet and prevent apportion of the combustible gases discharging from thetorch tip-from flowing-backwards through thelow pressure oxygen passage and entering said enlarged chamber, thereby preventing ,said combustible gases Vfrom reaching the4 valve `chamber and there intermixing with p ure Aoxygenwhichmay cause Va back- ,re throughthe cutting gas passage of theivalve said chamber, said diaphragm being so disposed relative to the inlet and outlet openings of said chamber that it oiers substantially no resistance to the ow of oxygen through said chamber during normal operation of the torch.

'7. An Oxy-acetylene torch comprising a head having a tip supported therein and provided with a plurality of preheating fuel ducts and a cutting gas passage, a butt member, conduits connecting the butt member to the torch head for conveying fuel and cutting gases to the tip, low pressure oxygen and acetylene passages in said butt member connected to supplies of oxygen and acetylene under pressure, cut-ofi` valves in said low pressure oxygen and acetylene passages, means providing an enlarged chamber in said butt member, said chamber being in communication with said oxygen passage and having a wall thereof provided with an annular seat denning a small outlet having a passage connecting it to the conduit for conducting low pressure oxygen from the butt member to the preheating fuel ducts in the torch tip, an enlarged diaphragm forming a wall of said chamber and biased to normally close said outlet when the torch is not in use, the eiective surface area of said diaphragm exposed to the iiow of oxygen through said chamber being relatively greater than the effective diameter of said outlet, whereby the diaphragm is retained in outlet-opening position during normal flow of low pressure oxygen through said chamber and without restricting said iiow, said diaphragm being arranged to automatically close said outlet should the pressure 8. A cutting torch comprising a tip having a plurality of preheating gas ducts therein, a butt member having a valve chamber therein connectedwith a source of oxygen under pressure, a cutting gas pasage leading from said chamber to the tip of the torch, a control valve in said chamber, said butt member also having an enf larged chamber therein which is in communication with the valve chamber, said enlarged chamber having a relatively small outlet to which one end of a passage is connected for conducting low pressure oxygen from the enlarged chamber to the preheating orifices of the torch tip, means Afor delivering acetylene gas to said preheating orifices to intermix with said low pressure oxygen to provide a preheating name, an enlarged pressure-sensitive element in said chamber biased to normally close said outlet when the torch is inoperative, the effective area of said element exposed to the pressure of the oxygen delivered into said enlarged chamber from the valve chamber being relatively greater than the effective area of said Voutlet whereby the pressure of the flow of low pressure oxygen through said chamber will retain the element in open position to permit free flow of oxygen through the enlarged chamber to the torch tip to support combustion, during normal operation of the torch, but should the pressure of said oxygen inadvertently be reduced to a point below the biasing force ex- 12 erted on said element, said element is automatically actuated tov clos'csaid outlet and prevent a portion of the combustible gases delivered .to the torch tip from owing backwards through the low pressure oxygen passage and entering said enlarged chamber, thereby preventing said combustible gases from reaching the valve chamber and there intermixing with pure oxygen which may cause a backfire through the cutting gas passage to the valve chamber with a resultant destruction.

ELMER H. SMITH.

REFERENCES CITED The following references are of record in-"tlie le of this patent:

UNITED STATES PATENTS 

